

Add to Cart
The KS3ARGA2 series is a versatile three-axis angular rate gyro that is designed to measure the angular rate sensor of moving carriers. This gyro utilizes a MEMS technology chip which provides high performance, low cost, high reliability, and high package robustness. Additionally, the device has a Self-Test function which helps ensure accurate and reliable measurements.
This product has been designed to have low power consumption, making it suitable for battery-powered applications. The wide operating temperature range and wide bandwidth enable this device to be used in a variety of different environments and applications. The small size and fast start-up time make it easy to integrate into different systems, and the DC input DC output feature enhances its versatility.
Overall, the KS3ARGA2 series gyro is a high-performance, versatile, and reliable device that is well-suited for a wide range of applications. Whether you are building a robot, an autonomous vehicle, or any other kind of moving carrier, this gyro is an excellent choice that will provide accurate and precise measurements.
>● low power consumption
● wide operating temperature range
● wide bandwidth
● small size
● DC input DC output
● fast start
● high performance, low cost
Parameter | KS3ARGA2 |
Power supply parameter | |
Input voltage | 5V(Vdc) |
Incoming currentmA | <10 mA |
Offset voltage | 1.65±0.02(V) |
Output voltage | 0.66~2.64(V) |
Product performance | |
Range | ±300(X,Y,Z)(°/s) |
Scaling factor | 3.3±0.05(mv/°/s) |
Nonlinearity | ≤0.05(%FR) |
Resolution/Threshold | ≤0.1(°/s) |
Cross coupling | ≤2(%) |
Output noise | <0.02(°/s√Hz) |
run-up time | ≤20(ms) |
Bandwidth can customize | 100(Hz) |
G-value sensitivity | <0.02(°/s/g) |
Mean time between failures | 100000hour(MTBF) |
Size | 43×30.5×30.5(mm) |
Weight | ≤50(g) |
zero-bias stability | 12(°/h) |
Temperature drift | ≤±0.1(°/s/°C) |
Environment | |
Operating temperature range | -45~+105(°C) |
Storage temperature | -65~+125(°C) |
Tolerated acceleration | 20000(0.1ms)(g) |
Automotive electronics refers to the electronic systems used in vehicles, including those that control the engine, transmission, steering, and other important components. With the increasing demand for fuel-efficient, connected, and safe cars, automotive electronics has become a critical area of research and development in the automotive industry.
The guidance and control of aircraft is a complex and interdisciplinary field that encompasses the study of aerodynamics, mechanics, electronics, and computer systems. It involves developing systems and algorithms that enable aircraft to maintain stability, navigate to a destination, and perform other functions safely and efficiently. With the rapid growth of the aviation industry, there is an increasing need for experts in the guidance and control of aircraft.
Platform stabilization refers to the process of maintaining the stability of a moving platform, such as a UAV, helicopter, or ship, while it is in motion. This is achieved through the use of high-precision sensors, control systems, and actuators, which work together to reduce the effects of disturbances like wind, waves, and vibrations. Platform stabilization is crucial for ensuring that sensors and instruments mounted on the platform can perform their functions accurately and reliably.
Robotics is the study of designing, building, and operating robots, which are machines that can perform tasks autonomously or with human input. Robotics involves integrating knowledge from engineering, computer science, and other fields to create machines that can perform tasks that are difficult, dangerous, or impossible for humans. Robotics is used in a wide range of applications, including manufacturing, healthcare, and space exploration.
Antenna stabilization and cameras are critical components in many modern systems, from communication satellites to UAVs. Antenna stabilization systems work to keep antennas pointed in the right direction, while cameras enable us to capture images and videos from remote locations. These systems rely on advanced control algorithms and signal processing techniques to ensure that they can operate under different environmental conditions.
The digital camera gimbal is a device that enables photographers and videographers to capture stable footage and images while in motion. The gimbal uses three or more motors to stabilize the camera and keep it level, regardless of how the person holding it moves. This technology has revolutionized the way that we capture and share visual content, and it has become an essential tool for many professional photographers and filmmakers.
Our Electronic Gyroscope Sensor is designed to provide precise motion sensing in a variety of applications. Our product technical support and services are dedicated to ensuring that you can integrate and use our gyroscope sensor effectively in your projects.
Technical Support:
- Comprehensive online documentation: Access detailed product specifications, integration guides, and troubleshooting articles to assist you with any technical queries regarding our Electronic Gyroscope Sensor.
Services:
- Email support: Reach out to our dedicated support team for personalized assistance with any technical issues you may encounter.
We are committed to providing you with the support you need to utilize our Electronic Gyroscope Sensor to its fullest potential.
Product Packaging:
Shipping: